Stock material or miscellaneous articles – Circular sheet or circular blank – Recording medium or carrier
Reissue Patent
1994-06-21
2002-05-28
Yamnitzky, Marie (Department: 1774)
Stock material or miscellaneous articles
Circular sheet or circular blank
Recording medium or carrier
C428S690000, C428S690000, C428S913000, C428S920000, C430S945000, C430S948000, C369S272100, C346S135100, C347S256000, C347S262000, C264S104000, C264S299000, C264S319000, C264S328120, C264S328130, C264S328140, C264S331110
Reissue Patent
active
RE037719
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to an optical data recording system and a method of production of a recording medium, or more in particular to an optical system for an optical data recording medium using linearly polarized light as a data reading light such as a magnetooptical recording medium drive system and a transparent substrate suitable especially for an optical data recording medium for reading data by use of linearly polarized light, and a method of production thereof.
In recent years, an optical data recording medium has been closely watched as a large-capacity recording medium comprising a magneto-optical recording film such as a phase-change type recording film or write-once type optical recording film or a reflection film on one side of a transparent substrate which is exposed to a light beam for recording and/or reproducing data. A linearly polarized light or circularly polarized light is used as a recording/reproducing light beam for an optical data recording medium of this type. (See “Analysis of Optical Anisotropy of Polycarbonate Substrate for PhotoMagnetic Recording”, by Aihiko Yoshizawa, October 1986 issue of Kogaku).
The linearly polarized light or circularly polarized light, once transmitted through a birefringent medium, becomes an elliptically polarized light, and one of the two components of the linearly polarized light with directions of vibration perpendicular to each other is retarded from the other component. As a result, in the case where the transparent substrate is made of a birefringent medium, the normal process of reading data is adversely affected by the retardation, thereby deteriorating the S/N ratio of the detection signal. Especially in a magneto-optical recording medium, a magneto-optical recording film is formed on one side of a transparent substrate, and data is read out by detecting a change in Kerr rotation angle (direction of rotation of the polarization plane) of the parts formed and not formed with a reversed domain on the magneto-optical recording film due to the linearly polarized light.
In the case where the transparent substrate is a perfectly optical isotropic body without any birefringence, no special problem of data reading is posed regardless of the direction in which the polarization plane of the linearly polarized light making up a data reading light is placed. If the transparent substrate is an optical anisotropic body or is accompanied by birefringence, however, the linearly polarized light entering the transparent substrate becomes an elliptically polarized light while being transmitted therethrough, and the retardation directly acts as a noise component of the detection signal, thereby deteriorating the S/N ratio of the detection signal greatly, except in the case where the polarization plane of the linearly polarized light is set in a specific direction.
In order to reduce or eliminate the deterioration of the S/N ratio of the detection signal by retardation, research efforts have so far been made to prepare a transparent substrate with as small a retardation as possible by selecting a substrate material or conceiving a method of preparing the substrate. As a consequence, a conclusion was reached that a thermoplastic resin such as a polycarbonate resin, though high in productivity, is not suitable as a transparent substrate material for a magneto-optical recording medium, and a thermosetting resin such as an epoxy resin or ceramics such as glass has been suggested in place as a proper material of the transparent substrate.
Ceramics such a glass, however, have disadvantages that (1) cracking or cut is liable to occur so easily that it is difficult to handle during production, use or transport, and (2) a signal pattern such as prepit corresponding to an address signal or a guide track corresponding to a tracking signal is required to be processed through a method of applying a resin replica film transferred from a die by what is called the photo polymerization process, resulting in a low productivity. The problem of a thermosetting resin such as epoxy resin, on the other hand, is an extremely low productivity as compared with the thermoplastic resin to which the injection molding can be applied, in view of the fact that the forming thereof is impossible by other than the casting method (in a which resin in fluid state is injected into a die of predetermined shape and set by heating).
In addition, no matter how small a retardation of a material may be, it is as a matter of fact impossible to obtain a transparent material zero in retardation. Therefore, the conventional technical idea of selecting and using a transparent substrate material low in retardation has an inherent shortcoming that the S/N ratio is unavoidably reduced with the magnitude of retardation of the material.
SUMMARY OF THE INVENTION
The object of the present invention is to provide an optical system for an optical data recording medium which has been developed in order to obviate the above-mentioned problems of the prior art and in which the effect of retardation of a transparent substrate is eliminated optically thereby to read data at high S/N ratio even from an optical data recording medium using a transparent substrate of high retardation.
In order to achieve this object, there is provided according to the present invention an optical system for an optical data recording medium using a linearly polarized light as a data reading light, in which the polarization plane of the data reading light is adjusted within ±5 degree of the direction parallel or perpendicular or 45° to the principal dielectric axis of the optical data recording medium. Specifically, on the basis of the mathematical analysis described in detail below with reference to embodiments, it has been discovered that in an optical system for an optical data recording medium using a linearly polarized light as a recording/reproducing light, it is possible to reduce the noise component of a detection signal due to the retardation to zero by adjusting the polarization plane of the recording/reproducing light in the direction parallel or perpendicular or 45 degree to the principal dielectric axis of the transparent substrate and to reduce the noise component of the detection signal below a tolerable level by keeping the deviation of the polarization plane of the recording/reproducing light from each of the above-mentioned directions within ±3 degrees.
If an optical system for an optical data recording medium having the above-mentioned functions is to be realized, an optical data recording medium with the principal dielectric axis thereof aligned in a predetermined direction is indispensable.
The present invention has been developed in order to satisfy this technical requirement. In an optical data recording medium according to the present invention, a recording film or a reflection film is formed on one side of a transparent substrate, and the data recording/reproducing operation is performed by applying a light beam to the recording film or reflection film. The principal dielectric axis of the transparent substrate is adjusted within ±3 degree from a reference direction arbitrarily set on the transparent substrate or perpendicular or 45 degree thereto. According to another aspect of the present invention, there is provided a method of producing an optical data recording medium including the step of molding a transparent substrate by injecting a melt plastic material into a die having a part of the cavity thereof made up of the information recording pattern side or prepit and pregroove pattern side (hereinafter abbreviated as “signal side”) of the stamper, in which the above-mentioned die is provided with a cold slug well and has a gate width less than 1 mm with the injection rate of melt plastic reduced at the time of injection start and end and increased during intermediate time.
REFERENCES:
patent: 4120922 (1978-10-01), Lemelson
patent: 4397805 (1983-08-01), Holmes
patent: 4627952 (1986-12-01), Ophir
patent: 4743409 (1988-05-01), Nomura et
Ikegaki Tetsurou
Shimizu Mitsuru
Sugiyama Toshinori
Tuburaya Yoshitane
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